Ingenuity for Life Wind Power Morten Pilgaard Rasmussen Restricted Siemens AG 2016
Cost improvement drives further competitiveness of wind and enables further market growth Source: IEA World Energy Outlook 2015, New Policies scenario Page 2
Consolidation in the wind power sector will be a key theme in the wind turbine manufacturing segment over the next few years BMI Research Lowering Cost Consolidation Increasing Global Footprint Fending Off Competition From China Source: BMI... Research http://www.bmiresearch.com/news-and-views/wind-market-consolidation-to-boost-global-competitiveness Page 3
Time to Market pressure requires strong product platforms Different rotors with same nacelle, generator and hub Larger rotor for IEC III SWT-3.3-130 Smaller rotor for IEC I Same Nacelle, Generator and Hub Onshore Direct Drive Same rotor for further developed machine 6 MW 7 MW Offshore Direct Drive 8 MW Modularization enables longer platform lifetime and larger volume Page 4
Integrated solutions for the wind farm development projects Nissum Bredning Vind wind farm SWT-7.0-154 Cost-efficient gravity jacket foundation solution New 66 kv voltage solution including a new transformer, cable and switchgear systems Further innovations in terms of tower and controller settings Page 5
WF-APO Adaptive Power Optimization on Wind farm WF Application executer platform. Setup sketch. Digitalization 2020. Park 1 control: Local turbine safeguard: -loads -noise -RPM Wind Farm Continuously update configuration Logging data Machine learning (+.) (+ weather data) (+ Speed) (+ Pitch) APO (Yaw) Configuration Data.. Park X control: Back office.. Data Report Page 6
Energy storage facilitates the integration of infrastructures and energy carriers Central Large Utilities Application cases by location of storage Distributed Small utilities, municipalities, industry prosumer Pumped storage H2 / Chemicals Battery Thermal Electricity Electricity H 2 / H 2 Fuel Methane for car (gas grid) Electricity Heat Grid balancing and stability Power-to-gas Power-to-chemicals Grid stability, self-supply, electro-mobility Power-to-heat Page 7
The challenges for the integration of Wind Power Depending on region integration of variable generation may face different challenges: Power system stability: Integration of renewables may lead to violations of grid codes in weak grid situations (frequency and voltage) At high shares of inverter connected generation system stability will be affected due to lack of inertia Output smoothening of wind power and ramp rate control Avoidance of forecasting errors for improved direct marketing Grid constraints and resulting curtailment of wind generation Energy Storage enables significantly increased Wind Penetration levels Page 8 ms sec min hours
Vision for future digital wind product and service Digital product features Digital service offerings WTGs foresee wind condition WTGs balance load vs. output WTGs optimize & learn jointly WTGs react on electricity price & grid condition WTGs react on environment condition WTGs request maintenance WTGs act in Digital Twin WTGs store energy Digital site evaluation Digital siting service Electrical design service Extended scope offering EPC Optimization options Flexible O&M offering Yield based availability Asset management Key Enablers Latest technology incl. cloud, VR Integrated enterprise information system Sustainable ecosystem Culture and organization Security Page 9
Floating Turbines to conqeur deep water The world s first full-scale floating wind turbine The world s largest floating wind farm 2.3 MW 2009 2015 Page 10
The Sustainable Power of Wind Page 11
Video We make real what matters clean energy for generations to come Restricted Siemens AG 2016 www.siemens.com/wind Restricted Siemens AG 2014 All rights reserved.